DE4338087A1 - Method for determining moisture (humidity) of solid materials with the aid of electronically controlled thermal vacuum treatment - Google Patents

Abstract

Published without abstract.

Description

The invention describes a method for thermal vacuum processing of fabrics, e.g. B. Building materials under construction sites conditions for quickly determining the moisture content of the samples taken with due regard to DIN and others Temperature determinations formulated in standards.

Examinations of moisture content outside of a Laboratories can be carried out in soil, agricultural products and other moisture concern; they are also the same with analyzes for the determination of the technical condition renovation required. But the previously known Possibilities for determining the moisture content of construction and other materials outside the laboratory offer many Difficulties and in principle do not meet the relevant ones DIN standards or other regulations.

The standards include, among others
DIN 51051 = Examination of the moisture content in ceramics
DIN 52103 paragraph C = water saturation method
DIN 52113 = maximum water absorption / material moisture
DIN 52181 = standard wood moisture of 12%
DIN 52251 = Frost resistance test - Determination of drying value.

DIN 52615 = water absorption - test for solid mortar.

DIN 52617 = water absorption coefficient test
The corresponding factor when determining the test method outside a laboratory is the duration of the test. This must be as short as possible, which will certainly have a positive effect on the quality of the results. If the duration of a moisture measurement should be shortened, the temperature can be increased and the mass reduced. This in turn reduces the possibility of a more accurate determination of a representative sample. It is also important to maintain the correct temperature for most substances in order not to obtain any incorrect data. According to DIN 51051, the heating of samples requires a temperature of 110 ° C (+/- 30), which previously meant a drying period of 12-14 hours.

Such examinations with precise results are so far only possible in the laboratory. But experts are also clear that samples taken from damp masonry, even on stored in containers with polished lids, many influences subject to influence the measurement results.  

Especially the cumbersomeness of building moisture measurements fabrics by the weighing-drying method had the consequence that the electrical and the so-called CM techniques are applied. These methods are common in the professional world because of the often wrong interpretation of the measurement results very controversial.

The invention relates to a method for more accurate, faster and easy to do moisture detection from solid Fabrics, stationary and portable, with thermal vacuum preparation of the samples with the aim of reducing their moisture content To determine the time of sampling, as well as a device to carry out this procedure.

The samples are taken using a device so that a minimal loss of moisture occurs. Then they will placed on a scale provided for this purpose and with a Weighed accuracy of 0.1 g.

In order to get a precise overview of the moisture in the wall with several measurements at the same time with several measurements, up to 6 measuring dishes can be placed in the openings of the heating level ( 12 ). The measuring cups are protected against slipping by a heat-resistant silicone rubber. The temperature of the heating plate ( 2 ) is controlled by the thermocouple ( 3 ) by means of the controller ( 4 ) and adapted to the standard requirements of the respective material. The protective hood ( 11 ) of the heating chamber is closed.

The sensor ( 5 ) only starts to work after the samples ( 1 ) have been heated. He operates the system ( 7 ) for creating a vacuum and the sensor ( 6 ) for checking the air humidity in the heating chamber. The moisture from the samples collects in the condensed water container ( 10 ). The vacuum is generated by the pump ( 7 ) and displayed on the instrument ( 8 ). After the required minimum air humidity value is reached, the time control system ( 9 ) switches on. The device takes into account the time difference (time difference - correction of the work of the vacuum pump according to the density of the examined material) of the respective material and after this it switches off. Immediately after heating, the samples are weighed again and the percentage indicator of the initial moisture is determined.

Claims (7)

1. A method for moisture determination with thermal vacuum processing of solid materials is characterized in that the samples to be examined are heated after weighing in the temperature determined by the standard in order to maintain the chemical structure (hydrates) and thus to achieve no measurement falsification. 2. The method is characterized according to claim 1, that the samples after being heated to a certain temperature the effect of a vacuum of not more than 150 mbr exposed to accelerate the escape of moisture nigen. 3. The method is according to claim 1 u. 2 characterized that the samples during the entire drying process in the Chamber remain and therefore no measurement errors due to difference moisture content in the outside air. 4. The device for carrying out the examinations according to claims 1 to 3 is characterized in that due to the installation of the sensor ( 5 ) each examination sequence takes place as follows:

• - Warming up the samples to a previously selected temperature
• - Creation of a vacuum and its maintenance in the further cycle of thermal processing of samples until the end of the drying process.

5. The device is characterized according to claim 4, that on the hot plate a bowl with openings for the Libra container is attached so that the device even at Un Flatness up to 15 ° inclination still works and therefore a transportable use of the device is given. 6. The device is ge according to claims 4 and 5 indicates that by installing a system for moisture measurement in the heating chamber the thermal vacuum processing of samples adapted to their physical properties that can. 7. In the device according to claims 4 to 6 which must Scale containers of identical mass (the mass accuracy must be one class higher than the accuracy of that in the device used scale).